A smart cabinet structure for deep hole drilling

By designing an intelligent cabinet structure, combined with intelligent locks and weighing modules, automated management of gun drills was achieved, solving the problem of low digitalization in gun drill management and improving the accuracy and transparency of inventory data.

CN224439349UActive Publication Date: 2026-06-30ANDRITZ (FOSHAN) INTELLIGENT MFG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANDRITZ (FOSHAN) INTELLIGENT MFG CO LTD
Filing Date
2025-06-17
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The current management of gun drills relies on manual data input, resulting in low levels of digital management, insufficient inventory accuracy and transparency, and affecting the timeliness and accuracy of inventory management.

Method used

Design an intelligent cabinet structure for deep hole gun drills, including an intelligent cabinet body, a PLC module, an industrial control module, and a cloud platform. Automated management is achieved through intelligent locks, a weighing module, and an input interface, recording the entry and exit information of gun drills and uploading it to the cloud in real time.

Benefits of technology

It has achieved automated management of gun drills, reduced human error, improved the accuracy and transparency of inventory data, reduced the workload of administrators, and improved the timeliness and accuracy of inventory management.

✦ Generated by Eureka AI based on patent content.

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Abstract

A smart cabinet structure for deep hole gun drills includes a smart cabinet body, a PLC module, an industrial control module, and a cloud platform. The smart cabinet body has a material requisition area and an electrical cabinet area, with the material requisition area located on the opposite side of the electrical cabinet area. The material requisition area is used to store materials to be used. The electrical cabinet area includes a recycling sub-area and an input sub-area located above the recycling sub-area. The recycling sub-area is used to store used gun drills, and the input sub-area has an input interface that is communicatively connected to the industrial control module. The industrial control module and the PLC module are located within the input sub-area. The requisition status is recorded by the cloud platform, reducing the workload of data entry for administrators, and allowing administrators to replenish materials promptly. By reducing human error, the accuracy and timeliness of the data are better guaranteed.
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Description

Technical Field

[0001] This utility model relates to the field of intelligent locker technology, and in particular to an intelligent locker structure using deep hole gun drilling. Background Technology

[0002] When producing ring dies, a core component of feed production equipment, a gun drill is used to drill holes in the die to create dies for feed extrusion molding. Material is drawn into the die cavity by rotating pressure rollers, enters the dies under high pressure, and is squeezed, ultimately extruding from the other end to form pellets. Current company management of these materials is relatively traditional, requiring administrators to manage the inbound and outbound status of these items, inputting information and generating various reports for subsequent tracking and management. However, due to the high cost of gun drills, some employees may falsify usage records, leading to drill loss. The existing management method relies on manual data entry by administrators, which is time-consuming, lacks real-time display, and has a low level of digital management. Because data is entirely manually entered, inventory accuracy is sometimes inaccurate. This lag and inaccuracy affect inventory transparency. Therefore, how to effectively and transparently manage gun drills has become a pressing issue in this field. Utility Model Content

[0003] To address the aforementioned shortcomings, the purpose of this utility model is to propose an intelligent cabinet structure for deep hole gun drills, thereby solving the problem of low digital management of gun drills by the aforementioned companies.

[0004] To achieve this objective, the present invention adopts the following technical solution: a smart cabinet structure for deep hole gun drilling, comprising a smart cabinet body, a PLC module, an industrial control module, and a cloud platform;

[0005] The intelligent cabinet body is provided with a material requisition area and an electrical cabinet area, with the material requisition area located on the other side of the electrical cabinet area;

[0006] The material requisition area is used to store materials to be used;

[0007] The electrical cabinet area includes a recycling sub-area and an input sub-area located above the recycling sub-area;

[0008] The recycling sub-area is used to store used gun drills, and the input sub-area is equipped with an input interface that is communicatively connected to the industrial control module; the industrial control module and the PLC module are located within the input sub-area.

[0009] The industrial control module is connected to the PLC module; the industrial control module is connected to the cloud; and the PLC module is connected to the material requisition area and the electrical cabinet area respectively.

[0010] The recycling sub-region is connected to the input sub-region.

[0011] Preferably, the recycling sub-area includes a recycling panel, the recycling panel has a recycling port, a recycling compartment door is hinged to one side of the recycling port, the recycling compartment door is equipped with a smart lock, and the smart lock is communicatively connected to the PLC module;

[0012] The recycling port is connected to the recycling space inside the recycling sub-area, and the recycling space is connected to the inside of the input sub-area.

[0013] Preferably, the recycling sub-area also includes a partition, which divides the internal space of the recycling sub-area into a recycling space and a storage space. The storage space contains recycling bags. The recycling panel has a first opening, and a recycling bag compartment door is hinged to one side of the first opening. The recycling bag compartment door is equipped with a smart lock.

[0014] A printing device is fixed above the storage space.

[0015] Preferably, a guide plate is fixed in the recycling space, the upper end of the guide plate is flush with the lower end of the recycling port, the lower end of the guide plate is connected to the bottom end of the recycling space, and the width of the guide plate is the same as the width of the recycling space.

[0016] Preferably, the smart cabinet body includes a frame, a storage compartment base plate, a storage partition, a storage compartment door, an electrical cabinet door, a top plate, a bottom plate, side plates, and a back plate;

[0017] The frame includes an electrical cabinet frame structure and a multi-layer storage frame structure located on one side of the electrical cabinet frame structure. Each layer of the storage frame structure has multiple grid-like units. The bottom plate of the storage grid is located at the bottom of the grid-like unit. The storage partition is located between adjacent grid-like units or between the grid-like unit and the electrical cabinet frame structure. The storage grid door is hinged to the front end of the grid-like unit. The top plate is located at the top of the frame, the bottom plate is located at the bottom of the frame, the side plates are located on the left and right sides of the frame, and the back plate is located on the rear side of the frame. The electrical cabinet door is hinged to the front end of the electrical cabinet frame structure.

[0018] Preferably, a weighing module is placed in the storage compartment, and the weighing module includes a balance beam weight sensor, a sensor mounting base, a soft pad, a tray, and a storage box;

[0019] The sensor mounting base includes an upper mounting frame and a lower mounting frame; the balance beam weight sensor is disposed between the upper mounting frame and the lower mounting frame, the lower mounting frame is fixed in the storage compartment, the lower end of the soft pad is connected to the upper mounting frame, the upper end of the soft pad is connected to the tray, and the storage box is fixedly installed on the top surface of the tray.

[0020] Preferably, the lower mounting bracket has four connecting holes, which are evenly distributed around the lower mounting bracket. The grid unit has fixing holes that match the positions of the connecting holes, and the storage compartment bottom plate has clearance holes that match the positions of the connecting holes. The lower mounting bracket is fixed to the grid unit by bolts.

[0021] Preferably, the upper mounting bracket has four connecting points, all four connecting points are fixedly connected to the soft pads, and the four soft pads are evenly distributed around the tray.

[0022] Preferably, the frame further includes a sheet metal top beam, a sheet metal bottom beam, and multiple sheet metal crossbeams, each of which has a locking mechanism; the sheet metal top beam is locked between the top plate and the frame, the sheet metal bottom beam is locked between the bottom plate and the frame, and the sheet metal crossbeams are locked between the storage frame structures on adjacent sides.

[0023] Preferably, it also includes an alarm light and a buzzer, which are respectively installed on the top of the intelligent cabinet body, and both the alarm light and the buzzer are electrically connected to the PLC module.

[0024] One of the above technical solutions has the following advantages or beneficial effects: Using the above structure, employees can retrieve materials through the smart cabinet itself, simplifying the material retrieval process and reducing the time required for filling out forms and communication. Simultaneously, the retrieval status is recorded in the cloud, further reducing the data entry work for administrators. Moreover, managers can replenish materials promptly. Due to the reduction of human factors, the accuracy and timeliness of the data are better guaranteed. Attached Figure Description

[0025] Figure 1 This is a structural schematic diagram of one embodiment of the present invention.

[0026] Figure 2 This is a schematic diagram of the structure of the electrical cabinet after the door of this utility model has been disassembled.

[0027] Figure 3 This is a schematic diagram of the structure of the present invention after the panel has been disassembled and recycled.

[0028] Figure 4 This is a cross-sectional view of one embodiment of the present invention.

[0029] Figure 5 This is a schematic diagram of the internal structure of the electrical cabinet area in one embodiment of this utility model;

[0030] Figure 6 This is a schematic diagram of the connection structure of the latch in one embodiment of this utility model;

[0031] Figure 7This is a schematic diagram of the structure on the back of the storage compartment door in one embodiment of this utility model;

[0032] Figure 8 This is a schematic diagram of the internal structure of the storage compartment in one embodiment of this utility model;

[0033] Figure 9 This is a schematic diagram of the weighing module in one embodiment of the present invention;

[0034] Figure 10 This is a schematic diagram showing the connection between the frame and the weighing module in one embodiment of this utility model;

[0035] Figure 11 This is a schematic diagram of one embodiment of the present invention;

[0036] The components include: intelligent cabinet body 1, material requisition area 11, frame 111, sheet metal top beam 1110, sheet metal bottom beam 1111, and sheet metal crossbeam 1112.

[0037] Storage compartment base plate 112, storage partition 113, storage compartment door 114, door frame 1141, heavy-duty hinge 1142, transparent panel 1143, latch 1144, door lock pad 1145

[0038] 115. Cabinet door; 116. Top panel; 117. Bottom panel; 118. Side panel; 119. Back panel

[0039] Electrical cabinet area 12, recycling sub-area 121, recycling panel 1211, recycling port 1212, recycling compartment door 1213, smart lock 1214.

[0040] Input sub-area 122, Input interface 1221

[0041] Partition partition 13, recycling space 131, storage space 132, first opening 1321, recycling bag door 1322.

[0042] Printing equipment 14, guide plate 15

[0043] PLC module 2, industrial control module 3

[0044] Weighing module 4, balance beam weight sensor 41, pad 42, tray 43, storage box 44, upper mounting bracket 45, lower mounting bracket 46, connection hole 461

[0045] Warning light 5. Detailed Implementation

[0046] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this utility model, and should not be construed as limiting this utility model.

[0047] In the description of this utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and are not intended to indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model.

[0048] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this utility model, unless otherwise stated, "a plurality of" means two or more.

[0049] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0050] like Figures 1-11 As shown, a smart cabinet structure for a deep hole gun drill includes a smart cabinet body 1, a PLC module 2, an industrial control module 3, and a cloud platform;

[0051] The intelligent cabinet body 1 is provided with a material requisition area 11 and an electrical cabinet area 12, with the material requisition area 11 located on the other side of the electrical cabinet area 12;

[0052] The material requisition area 11 is used to store materials to be used;

[0053] The electrical cabinet area 12 includes a recycling sub-area 121 and an input sub-area 122 located above the recycling sub-area 121;

[0054] The recycling sub-area 121 is used to store used gun drills, and the input sub-area 122 is provided with an input interface 1221, which is communicatively connected to the industrial control module 3; the industrial control module 3 and the PLC module 2 are located in the input sub-area 122.

[0055] The industrial control module 3 is communicatively connected to the PLC module 2; the industrial control module 3 is communicatively connected to the cloud; and the PLC module 2 is communicatively connected to the material requisition area 11 and the electrical cabinet area 12 respectively.

[0056] The recycling sub-region 121 is connected to the input sub-region 122.

[0057] Preferably, the recycling sub-area 121 includes a recycling panel 1211, the recycling panel 1211 has a recycling port 1212, a recycling compartment door 1213 is hinged to one side of the recycling port 1212, the recycling compartment door 1213 is provided with a smart lock 1214, and the smart lock 1214 is communicatively connected to the PLC module 2.

[0058] The recycling port 1212 is connected to the recycling space 131 inside the recycling sub-area 121, and the recycling space 131 is connected to the inside of the input sub-area 122.

[0059] The recycling panel 1211 is fixedly installed at the front end of the recycling sub-area 121 and has a recycling port 1212. When a worker needs to return a drill, the PLC module 2 sends an opening command to the smart lock 1214. At this time, the smart lock 1214 is in the unlocked state, and the recycling compartment door 1213 will open, exposing the recycling port 1212. The worker can put the drill into the recycling port 1212, and the drill will enter the interior of the recycling sub-area 121 through the recycling port 1212. Then, the worker needs to manually close the recycling compartment door 1213. After the recycling compartment door 1213 is closed, the PLC module 2 will receive a closing signal and send the closing signal to the industrial control module 3. The industrial control module 3 combines the employee ID and the drill ID of this return to generate a corresponding return record and uploads the return record to the cloud for storage.

[0060] Preferably, the recycling sub-area 121 further includes a partition 13, which divides the internal space of the recycling sub-area 121 into a recycling space 131 and a storage space 132. The storage space 132 contains recycling bags. The recycling panel 1211 has a first opening 1321, and a recycling bag compartment door 1322 is hinged to one side of the first opening 1321. The recycling bag compartment door 1322 is equipped with a smart lock 1214.

[0061] A printing device 14 is fixed above the storage space 132.

[0062] Since workers sometimes use gun drill sets, and while gun drills are hard, this hardness also means they are brittle. If they are placed in one by one, they may collide and damage some. Therefore, this invention uses a partition 13 to divide the space within the recycling sub-area 121 into a recycling space 131 and a storage space 132. The recycling port 1212 is connected to the recycling space 131, and the first opening 1321 is connected to the storage space 132. When workers need to return the gun drills, the PLC module 2 sends an unlocking command to the smart lock 1214. At this time, the smart lock 1214 is unlocked, and the recycling compartment door 1213 and the recycling bag compartment door 1322 will open. Workers can then retrieve a recycling bag from the recycling space 131, place multiple gun drills into the bag, and then tie them together to secure them inside. Finally, the corresponding identification symbol is printed by the printing device 14 and affixed to the recycling bag for identification.

[0063] Preferably, a guide plate 15 is fixed inside the recycling space 131. The upper end of the guide plate 15 is flush with the lower end of the recycling port 1212, the lower end of the guide plate 15 is connected to the bottom end of the recycling space 131, and the width of the guide plate 15 is the same as the width of the recycling space 131.

[0064] The guide plate 15 serves a guiding function, preventing the drill bit from directly impacting the bottom of the recovery space 131 and causing damage. The drill bit or drill assembly can slide slowly to the bottom of the recovery space 131 via the guide plate 15, reducing the impact. This protects both the drill bit and the recovery space 131. The angle A formed by the guide plate 15 and the bottom of the recovery space 131 is 130°, which best slows down the sliding speed and minimizes the impact on the recovery space 131. It is worth mentioning that when the drill bit is inserted, the tip must be pointing upwards.

[0065] Preferably, the smart cabinet body 1 includes a frame 111, a storage compartment bottom plate 112, a storage partition 113, a storage compartment door 114, an electrical cabinet door 115, a top plate 116, a bottom plate 117, a side plate 118, and a back plate 119.

[0066] The frame 111 includes an electrical cabinet frame structure and a multi-layer storage frame structure located on one side of the electrical cabinet frame structure. Each layer of the storage frame structure has multiple grid-like units. The storage grid bottom plate 112 is located at the bottom of the grid-like unit. The storage partition 113 is located between adjacent grid-like units or between the grid-like unit and the electrical cabinet frame structure. The storage grid door 114 is hinged to the front end of the grid-like unit. The top plate 116 is located at the top of the frame 111. The bottom plate 117 is located at the bottom of the frame 111. The side plates 118 are located on the left and right sides of the frame 111. The back plate 119 is located on the rear side of the frame 111. The electrical cabinet door 115 is hinged to the front end of the electrical cabinet frame structure.

[0067] like Figure 5 As shown, in one embodiment of this utility model, the storage partition 113 divides the right material requisition area 11 and the left electrical cabinet area 12. In a specific embodiment, the frame 111 is assembled from multiple vertical bars, long horizontal bars, and short horizontal bars. The bottom and top of the frame 111 use long horizontal bars, and the middle part uses short horizontal bars. The part of the long horizontal bar that extends beyond the short horizontal bar is used to form the electrical cabinet frame structure, while the parts of the vertical bars, short horizontal bars, and long horizontal bars that do not extend beyond the short horizontal bars cooperate to form a multi-layer storage frame structure. Multiple grooves are provided on both the short and long horizontal bars, which can play a role in accurate positioning and embedded installation during the installation of the short or long horizontal bars, making the assembled frame 111 more robust. Each connection point between the vertical bars, long horizontal bars, and short horizontal bars is fixed with uniform fasteners, specifically screws, nuts, spring washers, and flat washers.

[0068] The electrical cabinet frame structure, together with the top plate 116, bottom plate 117, storage partition 113, side plate 118, and back plate 119, forms the electrical cabinet area 12. In a preferred embodiment, the input interface 1221 is located on the outer side of the electrical cabinet door 115.

[0069] The storage frame structure, together with the storage compartment bottom plate 112, storage partition 113, storage compartment door 114, top plate 116, bottom plate 117, side plate 118, and back plate 119, forms the material requisition area 11. The storage compartment bottom plate 112, storage partition 113, storage compartment door 114, back plate 119, vertical bars, short horizontal bars, and long horizontal bars divide the material requisition area 11 into multiple storage compartments.

[0070] Preferably, a weighing module 4 is placed in the storage compartment. The weighing module 4 includes a balance beam weight sensor 41, a sensor mounting base, a soft pad 42, a tray 43, and a storage box 44.

[0071] The sensor mounting base includes an upper mounting bracket 45 and a lower mounting bracket 46; the balance beam weight sensor 41 is disposed between the upper mounting bracket 45 and the lower mounting bracket 46, the lower mounting bracket 46 is fixed in the storage compartment, the lower end of the soft pad 42 is connected to the upper mounting bracket 45, the upper end of the soft pad 42 is connected to the tray 43, and the storage box 44 is fixed to the top surface of the tray 43 by rivets.

[0072] like Figure 1 As shown, the material requisition area 11 has a relatively large volume. In practical applications, it can store not only gun drills but also other materials, such as grinding discs, grinding heads, cutting discs, twist drills, and grinding belts. These materials are all standardized, with each material having a fixed weight. Therefore, the amount of material taken by the worker can be determined by detecting the remaining weight. For this purpose, a weighing module 4 is provided in this invention. The soft pad 42 in the weighing module 4 acts as a buffer and shock absorber, preventing the shaking of the storage box 44 during material retrieval from affecting the measurement of the balance beam weight sensor 41. The storage box 44 is used to store materials. The tray 43 is used to support the storage box 44. The weight of the storage box 44 is transferred to the upper mounting frame 45 through the tray 43 and the soft pad 42, causing the upper mounting frame 45 to exert pressure on the balance beam weight sensor 41, thereby measuring the weight of the storage box 44.

[0073] In a specific embodiment, the balance beam weight sensor 41 is a weight sensor. When the overall weight of the storage box 44 changes, it is sent to the PLC module 2 in the form of an electrical signal. The PLC module 2 then sends the signal to the industrial control module 3 for processing, and finally uploads the value to the cloud.

[0074] Preferably, the lower mounting bracket 46 is provided with four connecting holes 461, which are evenly distributed around the lower mounting bracket 46. The grid unit is provided with fixing holes that are adapted to the positions of the connecting holes 461. The storage compartment bottom plate 112 is provided with clearance holes that are adapted to the positions of the connecting holes 461. The lower mounting bracket 46 is fixed to the grid unit by bolts.

[0075] In one specific embodiment of this utility model, the lower mounting bracket 46 is fixed by four connecting holes 461. Bolts pass through the connecting holes 461 and the clearance holes in sequence and enter the fixing holes to fix the lower mounting bracket 46 to the grid unit.

[0076] Preferably, the upper mounting bracket 45 is provided with four connecting supports, all four connecting supports are fixedly connected to the soft pads 42, and the four soft pads 42 are evenly distributed around the tray 43.

[0077] In one specific embodiment of this utility model, the upper mounting frame 45 is provided with four connecting supports. The four connecting supports are symmetrical about the axis of symmetry in the length direction, with the middle part of the upper mounting frame 45 as the center. At the same time, the width direction is symmetrical about the axis of symmetry in the width direction, with the middle part of the upper mounting frame 45 as the center. The connecting supports are all fixedly connected to the soft pads 42, so that the soft pads 42 are evenly distributed around the tray 43, allowing the tray 43 to be placed horizontally. This allows the storage box 44 to be placed stably on the tray 43, preventing the material from being affected by the deviation in the placement position, which could affect the weighing value of the material and cause the smart cabinet to report an error.

[0078] Preferably, the frame 111 further includes a sheet metal top beam 1110, a sheet metal bottom beam 1111, and a plurality of sheet metal crossbeams 1112. The sheet metal top beam 1110, the sheet metal bottom beam 1111, and the sheet metal crossbeams 1112 are all provided with snap-fit ​​openings. The sheet metal top beam 1110 is snapped between the top plate 116 and the frame 111, the sheet metal bottom beam 1111 is snapped between the bottom plate 117 and the frame 111, and the sheet metal crossbeams 1112 are snapped between the storage frame structures on adjacent sides.

[0079] The sheet metal top beam 1110, sheet metal bottom beam 1111, and multiple sheet metal cross beams 1112 can conceal the assembly gaps between the top plate 116 and the frame 111, between the bottom plate 117 and the frame 111, and between the storage frame structures on adjacent sides. This makes the weighing smart cabinet more aesthetically pleasing and reduces the possibility of others damaging the internal wiring structure through the assembly gaps, which could lead to the weighing smart cabinet becoming unusable.

[0080] The storage compartment door 114 includes a door frame 1141, a heavy-duty hinge 1142, a transparent panel 1143, a latch 1144, a door lock pad 1145, and a smart lock 1214;

[0081] One end of the heavy-duty hinge 1142 is located on the left side of the door frame 1141, and the other end of the heavy-duty hinge 1142 is located on the front side of the grid unit. The door frame 1141 is provided with an observation window, and the transparent plate 1143 is located on the back of the door frame 1141. The right side of the back of the door frame 1141 is provided with a mounting groove, and the latch 1144 is installed in the mounting groove. The door lock pad 1145 is located on the storage partition 113 on the right side, and the smart lock 1214 is located on the door lock pad 1145. The smart lock 1214 is electrically connected to the PLC module 2.

[0082] The latch 1144 is fixed in the mounting groove, allowing for vertical adjustment. The door lock pad 1145 is used to fix the smart lock 1214, ensuring that the position of the smart lock 1214 matches the position of the latch 1144. The smart lock 1214 is electrically connected to the PLC module 2, which controls the opening and closing of the storage compartment door 114. In a specific embodiment of this invention, the door frame 1141 is a metal sheet metal door frame, and the heavy-duty hinge 1142 has high load-bearing capacity, capable of supporting the weight of the door frame 1141 and improving the durability of the storage compartment door 114.

[0083] In one specific embodiment of this utility model, the transparent plate 1143 is an acrylic plate. Using the above structure, the interior of the storage compartment can be observed through the viewing window, facilitating management and monitoring by personnel.

[0084] Preferably, it also includes an alarm light 5 and a buzzer, which are respectively installed on the top of the intelligent cabinet body 1, and both the alarm light 5 and the buzzer are electrically connected to the PLC module 2.

[0085] Because employees can directly access materials within the smart locker after its compartment door 114 is opened—including shelving and requisitioning—and must close the compartment door 114 after each operation, the industrial control module 3 must have a suitable protection mechanism to prevent employee errors and ensure the accuracy of material retrieval information in the cloud. For example, when a warehouse clerk shelves a material, they must scan or enter the unique QR code on the drill bit in input interface 1221 to link the drill bit's ID number to the smart locker. Only then will the shelving operation complete correctly. Otherwise, the compartment door 114 will not close, the warehouse clerk's employee number will be locked, the alarm light 5 will illuminate red, and the buzzer will sound an alarm. This serves as a reminder to the warehouse clerk of any operational errors that should be corrected promptly.

[0086] In the description of this specification, the references to terms such as "one embodiment," "some embodiments," "illustrative embodiment," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0087] Although embodiments of the present invention have been shown and described, those skilled in the art will understand that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the claims and their equivalents.

Claims

1. A smart cabinet structure for deep hole drilling, characterized in that, It includes the intelligent cabinet body (1), PLC module (2), industrial control module (3) and cloud; The intelligent cabinet body (1) is provided with a material requisition area (11) and an electrical cabinet area (12), and the material requisition area (11) is located on the other side of the electrical cabinet area (12); The material requisition area (11) is used to store materials to be used; The electrical cabinet area (12) includes a recycling sub-area (121) and an input sub-area (122) located above the recycling sub-area (121); The recycling sub-area (121) is used to store used gun drills. The input sub-area (122) is provided with an input interface (1221), which is communicatively connected to the industrial control module (3). The industrial control module (3) and the PLC module (2) are located in the input sub-area (122). The industrial control module (3) is connected to the PLC module (2) for communication; the industrial control module (3) is connected to the cloud for communication; and the PLC module (2) is connected to the material requisition area (11) and the electrical cabinet area (12) for communication respectively. The recycling sub-region (121) is connected to the input sub-region (122).

2. The intelligent cabinet structure for deep hole gun drilling according to claim 1, characterized in that, The recycling sub-area (121) includes a recycling panel (1211), which has a recycling port (1212). A recycling compartment door (1213) is hinged to one side of the recycling port (1212). The recycling compartment door (1213) is equipped with a smart lock (1214), which is communicatively connected to the PLC module (2). The recycling port (1212) is connected to the recycling space (131) inside the recycling sub-area (121), and the recycling space (131) is connected to the inside of the input sub-area (122).

3. The intelligent cabinet structure for deep hole gun drilling according to claim 2, characterized in that, The recycling sub-area (121) also includes a partition (13), which divides the internal space of the recycling sub-area (121) into a recycling space (131) and a storage space (132). The storage space (132) contains recycling bags. The recycling panel (1211) has a first opening (1321), and a recycling bag compartment door (1322) is hinged to one side of the first opening (1321). The recycling bag compartment door (1322) is equipped with a smart lock (1214). A printing device (14) is fixed above the storage space (132).

4. The intelligent cabinet structure for deep hole gun drilling according to claim 3, characterized in that, A guide plate (15) is fixed inside the recycling space (131). The upper end of the guide plate (15) is flush with the lower end of the recycling port (1212). The lower end of the guide plate (15) is connected to the bottom end of the recycling space (131). The width of the guide plate (15) is the same as the width of the recycling space (131).

5. The intelligent cabinet structure for deep hole gun drilling according to claim 3, characterized in that, The intelligent cabinet body (1) includes a frame (111), a storage compartment bottom plate (112), a storage partition (113), a storage compartment door (114), an electrical cabinet door (115), a top plate (116), a bottom plate (117), a side plate (118), and a back plate (119); The frame (111) includes an electrical cabinet frame structure and a multi-layer storage frame structure located on one side of the electrical cabinet frame structure, each layer of the storage frame structure having multiple grid-like units. The storage compartment bottom plate (112) is located at the bottom of the grid unit; the storage partition (113) is located between adjacent grid units, or between the grid unit and the electrical cabinet frame structure; the storage compartment door (114) is hinged to the front end of the grid unit; the top plate (116) is located at the top of the frame (111); the bottom plate (117) is located at the bottom of the frame (111); the side plates (118) are located on the left and right sides of the frame (111); the back plate (119) is located on the rear side of the frame (111); the electrical cabinet door (115) is hinged to the front end of the electrical cabinet frame structure.

6. The intelligent cabinet structure for deep hole gun drilling according to claim 5, characterized in that, The storage compartment contains a weighing module (4), which includes a balance beam weight sensor (41), a sensor mounting base, a soft pad (42), a tray (43), and a storage box (44). The sensor mounting base includes an upper mounting bracket (45) and a lower mounting bracket (46); the balance beam weight sensor (41) is disposed between the upper mounting bracket (45) and the lower mounting bracket (46), the lower mounting bracket (46) is fixed in the storage compartment, the lower end of the soft pad (42) is connected to the upper mounting bracket (45), the upper end of the soft pad (42) is connected to the tray (43), and the storage box (44) is fixedly installed on the top surface of the tray (43).

7. The intelligent cabinet structure for deep hole gun drilling according to claim 5, characterized in that, The lower mounting bracket (46) is provided with four connecting holes (461), which are evenly distributed around the lower mounting bracket (46). The grid unit is provided with fixing holes that are adapted to the positions of the connecting holes (461). The storage compartment bottom plate (112) is provided with clearance holes that are adapted to the positions of the connecting holes (461). The lower mounting bracket (46) is fixed to the grid unit by bolts.

8. The intelligent cabinet structure for deep hole gun drilling according to claim 6, characterized in that, The upper mounting bracket (45) is provided with four connection points, all of which are fixedly connected to the soft pads (42), and the four soft pads (42) are evenly distributed around the tray (43).

9. The intelligent cabinet structure for deep hole drilling according to claim 5, characterized in that, The frame (111) also includes a sheet metal top beam (1110), a sheet metal bottom beam (1111), and a plurality of sheet metal cross beams (1112). The sheet metal top beam (1110), the sheet metal bottom beam (1111), and the sheet metal cross beams (1112) are all provided with snap-fits. The sheet metal top beam (1110) is snapped between the top plate (116) and the frame (111), the sheet metal bottom beam (1111) is snapped between the bottom plate (117) and the frame (111), and the sheet metal cross beams (1112) are snapped between the storage frame structures on adjacent sides.

10. The intelligent cabinet structure for deep hole gun drilling according to claim 5, characterized in that, It also includes an alarm light (5) and a buzzer, which are respectively installed on the top of the intelligent cabinet body (1), and both the alarm light (5) and the buzzer are electrically connected to the PLC module (2).